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metadata.yaml
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access:
- schemaKey: AccessRequirements
status: dandi:OpenAccess
assetsSummary:
numberOfBytes: 0
numberOfFiles: 0
schemaKey: AssetsSummary
citation: 'Yu, Kai (2024) Electrophysiology-Compatible Wearable Transcranial Focused
Ultrasound Neuromodulation Array Probes (Ultrasound Characterizations: Computer
Simulations) (Version draft) [Data set]. DANDI archive. https://dandiarchive.org/dandiset/000949/draft'
contributor:
- affiliation: []
email: kaiyu1@andrew.cmu.edu
includeInCitation: true
name: Yu, Kai
roleName:
- dcite:ContactPerson
schemaKey: Person
dateCreated: '2024-03-30T21:11:47.932113+00:00'
description: 'We designed and simulated a novel 64-element random array ultrasound
transducer which is electrophysiology-compatible and is wearable. The project promises
to develop a wearable ultrasound neuromodulation transducer array system, integrated
with electrophysiological recordings in awake behaving animals, thus significantly
advancing our ability to interrogate neural circuits in various behaving animal
models with a high spatiotemporal resolution and has tremendous potential for translation
to clinical utility.
This dataset includes 5 .mat files with formatted transcranial focused ultrasound
simulation pressure magnitude data (variable: us_mag). Each file name is marked
with the transcranial brain targets, e.g., S1HL, insula, thalamus, that are responsible
for pain signal processing. Other two .mat files have the formatted ultrasound pressure
field when the ultrasound targets at a sham location or when the transducer is working
in the coherent mode, i.e., all elements transmitting ultrasound simultaneously.
When the tFUS targeted at S1HL, insula, thalamus and sham locations, the H276 was
steering its focus by certain distances. These distances were listed in our preprinted
work shown below. The spatial step sizes of the 3D matrix (us_mag) are included
in each of these files (variable: delta_x, delta_y, delta_z).
The simulations were implemented in Sim4Life V7.0 in the presence of a mouse skull
model (CT image based). This work was supported in part by NIH EB029354, NS124564,
and NS131069. More information can be found in the corresponding manuscript:'
id: DANDI:000949/draft
identifier: DANDI:000949
license:
- spdx:CC-BY-4.0
manifestLocation:
- https://api.dandiarchive.org/api/dandisets/000949/versions/draft/assets/
name: 'Electrophysiology-Compatible Wearable Transcranial Focused Ultrasound Neuromodulation
Array Probes (Ultrasound Characterizations: Computer Simulations)'
repository: https://dandiarchive.org
schemaKey: Dandiset
schemaVersion: 0.6.7
url: https://dandiarchive.org/dandiset/000949/draft
version: draft